SU112826A1 - Vibration Current or Voltage Stabilizer - Google Patents

Description

Vibration current stabilizers are widely used in automatic control systems and in counting machines. However, the known stabilizers of the same genus have a complex structure and are not reliable enough in operation, since they contain electrical contacts that are continuously closed and open, with high frequency.

The proposed stabilizer is a more sophisticated instrument, since it provides high stabilization accuracy in the absence of electrical contacts.

For this purpose, it uses a vibrator powered by an increased frequency current and an induction sensor, the measles of which is rigidly connected to the core of the vibrator.

The magnetic sensor system contains a permanent magnet with a polarized winding, supplied with a stabilized current, and pole pieces that carry the signal winding connected to the control device.

The drawing shows the structural scheme of the proposed stabilizer.

The stabilizer consists of two main components: a vibrator and an induction sensor.

The vibrator has a magnetic system consisting of a permanent magnet /, poles 2 and a core 3, the latter being rigidly connected with an aluminum rod 4, suspended on tensioned springs 5.

At the pole tips of the vibrator is installed, the excitation coil 6, powered by alternating current at a higher frequency.

In the absence of current in the coils 6, the bark 3 is located symmetrically with respect to 10 four poles 2 and the gaps between the bark and the tips will be identical. D1b 112826

 the flow of current through the coils 6 creates an additional stream, redistributing the young stream of a constant 10-magnetite / between the pole tips, as a result of which the measles 3 turns from the side of the pack, through which more flow passes. Since the catup: excitation kng is powered by a constant current of frequency 400-500 Hz, the measles 3 of the isoKpyr axis 00 will oscillate with the same frequency.

The induction sensor has a magnetic device, consisting of a nozzle magnet 7, noles 8, a core 9 and a sleeve 10.

In order to eliminate the effect of the residual magnetism, poles 8, the measles 9 and the sleeve 10 are made of a material possessing an insignificant number of cytive forces (permalloy, etc.).

At the tips of the poles 8, four katupzhi // were installed, which were switched on by the control device.

Permanent magnet 7 o.15at the rizuypla 12, fed by a stabilized current, which creates a magnetic flux directed against the flow of a permanent magnet. With a magnetic PSTOKO15 equilibrium of the katunki 12 and a permanent magnet, cut}. The altipus yup1iy. Mappenny flow li lugs nolyusop 8 will be equal to zero. P) and a decrease in the increase of the current, the passage of Nhego along the catupne 12 in the accumulated pole, 8 according to the Wits magnetn-i notes.

The anchor .9 of the induction sensor is rigidly connected with the crust 3 of the vibrator and oscillates with it, as a result of which the gaps between the crust 9 and the tips of the poles 8 vary intermittently. will be issued in e. D. s., the phase of which will depend on the magnitude of the lock in the coil 12.

When you change the phase e. D. s., removed from the coils 11, connected to them, the regulating device will change the current in the regulating circuit until 1 minute until the notes in the tips of the 8s become equal to zero.

Thus, the stabilized current flowing through the coil 12 will always be magnetically proportional to the flux of the permanent magnet 7, which will always be constant with the constant induction of this magnet.

Subject invention

Ribradiopenic current stabilizer or impregnation, which distinguishes tsm, that, in order to make it contactless, measles vib | 1ator. powered by an increased frequency current, is rigidly connected to the induction crust: